Oscillation Quiz Jeopardy Template

Motion

Characteristic of motion

Change of energy

Pendulum

Spring

100

Examples of oscillatory motion

vibrating strings, swinging of the object,etc.

100

The time taken for one complete oscillation

Period

100

energies from oscilating object

Kinetic Energy and Potential energy

100

What is a pendulum?

any mass suspended on a string, rope, or other arms that can swing back and forth

100

the spring constant is directly proportional with...

The force

200

Examples of periodic motion in our live

motion of hands of the clock, motion of planets around the sun etc.

200

Unit of measurement of amplitude

Meter

200

Energy due to its motion

Kinetic Energy

200

The period of oscillation of the pendulum depends on its ...

length

200

The formula to calculate the period

300

The other word of the rest position

The equilibrium position

300

The number of cycles\oscillations per second

Frequency

300

state a point during oscillating process, which has maximum potential energy

maximum displacement

300

When is the velocity of the pendulum greatest?

At the bottom of the swing.

300

find the period of oscillating spring which has spring constant 5.5 N/m and a mass of 150 g hangs on the spring (4 significant figure)

1.038 s

400

s.h.m equation when t = 0 (start), the displacement at the equilibrium position

x = x_osin(wt)

400

Unit of measurement of Frequency

Hertz

400

The formula of the kinetic energy of s.h.m

KE = 1/2m ω² (xo² – x²),

400

How could you increase the amount of time that it takes for the pendulum to make a full swing?

Increase the length of the pendulum.

400

an oscillating spring has a frequency of 2.5 Hz. Find the mass hangs on it if the spring has a spring constant of 8.0 N/m. (in gram)

32.4 gram

500

defined as The motion of a particle about a fix point such that its acceleration is proportional to displacement from the fix point and its directed toward the point

Simple Harmonic Motion

500

Maximum displacement from the rest position

Amplitude

500

A particle of mass 80g oscillates in simple harmonic motion with angular frequency 12.5 rad/s^-1 and amplitude 25 mm. Calculate the total energy during the oscillation

3.9 x 10^-3J

500

The period of oscillation of a simple gravity pendulum depends on 1)... and 2)...

the length of the pendulum and on the magnitude of the gravitational acceleration.

500

The period of oscillation of a spring depends on 1)... and 2)...

its mass and spring constant